SU840741A1 - Device for measuring transport facility speed - Google Patents

Description

The invention relates to devices for taking into account the parameters of traffic flows, namely, devices for measuring the speed of vehicles and can be used in automated traffic control systems, in equipment for studying traffic flows, as well as in automation and telemechanics devices.

A device is known for determining the speed of vehicles. means containing two transport detectors, the sensitive elements of which are located at a certain 15 distance from each other, transport detectors are connected through a control circuit to a variable frequency generator, which is connected to a synchronous motor connected to the gear using a reversible counter, performing a subtraction operation. A printing device connected to a pulse counter is connected to a switch controlling the printing cycle £ 1].

The known device provides a sufficiently high accuracy of measuring the speed of vehicles, but it does not have access to 30.

Relatively high reliability due to the fact that for the linearization of non-linear dependences of the travel time of the base distance and the speed of vehicles, the device uses a mechanical system, which in itself is complex and cumbersome. The closest in technical essence to the proposed one is a device containing transport detectors, triggers, a pulse generator, shapers, AND elements, one input of the first of which is connected to the output of the first trigger, one input connected to the output of the first shaper, the input of which and one of the inputs of the second the shaper connected to the output of the third shaper, the OR element and the display unit.

In the known device, the speed of vehicles is determined using a computing device based on the signals received from the measuring loops by measuring the travel time of the base distance, which corresponds to the length of time between the moments of operation of the first and second sensors £ 2j.

A disadvantage of the known device is that it does not take into account the error due to the non-identical parameters of the conversion channels of the measuring loops, such as different sensitivity of the elements, the spread of the parameters of differentiating elements, etc., which limits the accuracy of the device.

The purpose of the invention is to improve the accuracy of measuring the speed of vehicles.

This goal is achieved by the fact that a unit for comparing results, counters, a multiplication unit, a register and a decoder are introduced into the device, one input of the results comparison unit is connected to the input of the device, the second input is connected to the output of the decoder, which is connected to the display unit, and the output connected to the input of the first counter, the output of which is connected to the first input of the second counter, the second input of which is connected to the output of the multiplication unit, the third input of the second counter is connected to the output of the fourth ,, shaper, the fourth input of the second The second counter is connected to the output of the second AND element, one output of the second counter is connected to the other input of the first And element, the other output of the second counter is connected to the input of the third shaper, to one of the inputs of the decoder and to the corresponding inputs of the third and fourth counters, two other inputs of the third counter connected respectively to the outputs of the first and second elements AND, the fourth ^ input is connected to the first output of the fourth counter, which is connected to another input of the decoder, the second output of the fourth counter is connected with another input of the first trigger, the second and third inputs of the fourth counter are connected to the outputs of the second and third elements And, the fourth input of the fourth counter is connected to the output of the fourth driver, and the fifth input is connected to the output of the first element and which is connected to one of the register inputs, the corresponding inputs and outputs of which are connected to the outputs and inputs of the fourth counter, the other input of the register is connected to the output of the second shaper, the output of which is connected to the input of the fifth shaper, the output otorogo connected to one input, an OR element, the other input of which is connected to the output of the sixth shaper, the input of which is connected to the output of the fourth shaper, the input of which is connected to the output of the second trigger, the inputs of which are connected to the transport detectors, and the output of the second trigger is connected to one input of the third element And, the other input of which and one of the inputs of the second element And are connected to the output of the pulse generator, the other input of the second element and is connected to the output of the third trigger, one input of which is connected to the output of the OR element, and the other input of the third trigger and the second driver is connected to the first output of the fourth counter.

The drawing shows a structural diagram of the proposed device.

The device contains detectors 1 and 2 of the vehicle, the outputs of which are connected to the inputs of the trigger 3, the output connected to the input of the shaper 4 and · with one of the inputs of the element And 5 another input of which is connected to the output. a pulse generator 6, also connected to one of the inputs of the And 7 element, the output of which is connected to one of the inputs of the counters 8, 9 and 10, the output of the latter is connected to the multiplication unit 11, the output connected to the other input of the counter 8, the third input of which is connected to the output of the counter 12, the fourth input is connected to the output of the shaper 4, the first output is connected to one of the inputs of the And 13 element, and the second output is connected to the input of the shaper 14, to one of the inputs of the decoder 15 and to the corresponding inputs of the counter 9 and counter 10. The third input of the counter 9 connection inen with the output of element And 5, the fourth input is connected to the output of the shaper 4, one output of this counter is connected to another input of the decoder 15, the other output of the counter 9 is connected to the third input of the decoder 15, to the third input of the counter. 10, to one of the inputs of the shaper 16 and to one of the inputs of the trigger 17, the output of which is connected to the other input of the I7 element, and the other input is connected to the output of the OR element 18, one input of which is connected to the output of the shaper 19, the input connected to the output of the shaper 4 , the other input of the OR element 18 is connected to the output of the shaper 20, the input of which is connected to the output of the shaper 16, also connected to one of the inputs of the register 21, the bit inputs and outputs of which are connected to the corresponding outputs and inputs of the counter 9, the other output is it is connected to one input of flip-flop 22, whose output is connected to another input member and 13, the output associated with the respective inputs of the counters 9, 10 and to another input of the register 21.

One of the outputs of the decoder 15 is connected to the display unit 23, and its other input is connected to one of the inputs of the results comparison unit 24, to the other input of which a reference speed meter (not shown) is connected, the output of the results comparison unit 24 is connected to the input of the counter 12 The output of the pulse shaper 14 is connected to another input of the shaper 16 and to the input of the shaper 25, the output of which is connected to another input of the trigger 22.

The device operates as follows.

Before starting measurements, the device for measuring vehicle speed is calibrated from a reference speed meter, which can be used, for example, a photosensor, foot switch, etc., by comparing the result of measuring speed with a reference. a measuring meter supplied to one of the inputs of the unit 24 for comparing the results, and the result of measuring the speed using the proposed device, coming from the output of the decoder 15, with a minimum measurable speed of vehicles ’’ means equal to 1 km / h. In this case, from the output of the unit 24 for comparing the results, a certain number of pulses corresponding to the minimum vehicle speed is recorded in the counter 12.

If the speed measurement results obtained using the reference 25 speed meter and using the proposed device are the same, then the number recorded in the counter 12 is not corrected. If these results do not match, the number of pulses recorded in ^ 12 counter 12 is corrected until the measurement results match. The number recorded in counter 12 when the results match, is hard-coded, and the reference speed meter is turned off.

When a vehicle passes through the controlled area of one of the transport detectors, for example 1, the pulse appears at the output of the latter, which is fed to the input of installation 1 of trigger 3, the output of which is signal 1, which is fed to one of the inputs of element I5, thereby resolving the passage of high-frequency pulses from the generator 45 pulses 6 to the summing input of the counter 9.

When a vehicle passes through the controlled zone of a transport detector 2, a βθ signal appears at its output, setting trigger 3 to state 0, while element I5 closes, stopping the arrival of counted pulses from pulse generator 6 to the summing input of counter 9.

The trailing edge of the pulse from the output ^{5 of} trigger 3 triggers the shaper 4, which generates a signal supplied to the corresponding input of the counter 9, through which the information recorded in this counter 60 is transferred to the parallel register 21. This pulse received at the corresponding input of the counter 8 is entered information stored in counter 12 to counter 8. 65

The rear front of the pulse from the output of the shaper 4 starts the shaper 19, which generates a signal supplied to one of the inputs of the element OR 18, the output signal of which is fed to the input of the installation 1 of the trigger 17, while the output of the latter appears signal 1, received at one of the inputs of the element I7, allowing the passage of pulses from the pulse generator 6 to the subtracting inputs of the counters, 8 and 9, as well as to the counting input of the counter 10.

If zero appears in all the categories of the counter 9, a pulse arrives at the output of the decoder 15, the input of the trigger 0 of the trigger 17, the input of the shaper 16 and simultaneously reset the counter 10. A pulse from the output of the shaper 14 is received at the other input of the shaper 16. At the output of the trigger 17, a signal 0 appears, prohibiting the passage of pulses from the pulse generator 6 through the element I7 to the summing input of the counter 8.

At the output of the Shaper 16, a pulse arrives at the input of the register 21 and at the input of the shaper 20. This pulse overwrites the information stored in the register 21 to the counter 9. The trailing edge of the pulse from the shaper 16 starts shaper 20, which through its output signal OR 18 sets the trigger 17 to a single state, and the process of subtracting the pulses from the generator 6 through the element 7 to the subtracting inputs of the counters 8.9 begins.

Each time when zeros appear in the digits of counter 9, one pulse arrives at decoder 15.

When measuring speed, the measurement result recorded in the decoder may differ from the true value by minus 1 km / h, in this case, when measuring high speeds, the error is very small, but when measuring low speeds, the error can reach a significant value, for example, at a speed of movement equal to 1 km / h, the error can be 50%. Therefore, to reduce the measurement error, the speed must be measured to the nearest tenth of a km / h.

When measuring low speeds, the output of the counter 9 at a speed less than the specified one, for example 10 km / h, receives a pulse at the input of installation 1 of trigger 22, at the inverse output of which a signal 0 appears. If a speed is measured that is above a predetermined limit, the input trigger 22 from the counter 9, the signal is not received and the signal 1 is present at its output. When 8 zeros appear in all bits of the counter, the signal with

Ί the output of the latter goes to the input of the I13 element, on the other input of which there is an enable signal 1 from the trigger 22. The output signal of the I13 element resets the counter 9 and the register 21, thereby ending the measurement process.

When measuring speed below km / h _{, the} pulse from the output of the counter 9 at the output of the trigger 21 sets the signal 0, which prohibits the passage of the reset pulse through the element I13, and from the output of the counter 8 there appears a pulse that transfers information recorded in the counter 10 through block 11 multiplication to the counter 8. In the multiplication block 11, the number is multiplied by a certain coefficient, depending on the specified accuracy of the Measurement. For example, when measuring speed with an accuracy of tenths of an km / h, the number recorded in counter 10 is multiplied by 10. On the trailing edge of the transfer pulse coming from the output of counter 8, the shaper 14 generates a pulse that, through the shapers 16, the OR element 18 sets the course trigger 17 signal 1, the cycle repeats.

The pulse from the counter output trigger input 22 comes only once per measurement cycle when pulses are received at the summing input of this counter.

The output pulse of the shaper 14 through the shaper 25 sets the output of the trigger 22 to signal 1 after the counter 8 has zero zeros, the reset pulse passes through the element 13 and resets the counter 8, register 21 and counter 10. The pulse coming from the output of counter 8 when all its zeros at the input of the decoder 15, is a sign of tenths.

The first pulse arriving at the summing input of the counter 9 is reset to the decoder 15 and the display unit 23, in preparation for receiving new information.

The proposed device allows you to measure the speed of vehicles with an accuracy of tenths of a km / h, which is especially important when measuring low speeds.

The economic effect of using the proposed device is determined by the above technical advantages.

/, 20 and on.

Claims (2)

 , one , . The invention relates to devices for recording the parameters of traffic flows, namely, devices for measuring the speed of vehicles and can be used in automated traffic control systems, in the equipment for studying traffic flows, as well as in automation and telemechanics devices. A device is known that allows determining the speed of transport. the means containing two transport detectors, the sensitive elements of which are located at a certain distance from each other, the transport detectors through a control circuit are connected to a variable frequency generator, which is connected to a synchronous motor connected by a gear with a reversible counter, performing a subtraction operation. A printing device connected to the switch, the control printing cycle fll is connected to the pulse counter. The known device provides a sufficiently high accuracy in measuring the vehicle speed, but it does not have a sufficiently high reliability due to the linearization of the linear time for linearization the distance and speed of the vehicles in the device use a mechanical system, which itself is complex and cumbersome. The closest in technical essence to the present invention is a device comprising transport detectors, triggers, pulse generator, drivers, And elements, one input of the first of which is connected to the output of the first trigger, one input connected to the output of the first driver, which input and one of the inputs the second shaper connected to the output of the third shaper, the OR element and the display unit. In the known device, the vehicle speed is determined by a computing device from signals received from measuring loops by measuring the transit time of the base distance, which corresponds to the time interval between the first and second sensor response times 2. A disadvantage of the known device is that it does not take into account the error due to the nonidentity of the parameters of the conversion channels of the measuring loops, such as the different sensitivity of the element s, the variation of the parameters of differentiating elements, etc., which limits the accuracy of the device. The purpose of the invention is to improve the accuracy of measuring the speed of vehicles. The goal is achieved by the fact that a unit compares the results, counters, a smart block, a register and a decoder, one input of the results comparison unit is connected to the device input, the second input is connected to the output of the decoder, which is connected to the display unit, and the output is connected. to the input of the first counter, the output of which is connected to the first input of the second counter, the second input of which is connected to the output of the multiplication unit, the third input of the second counter is connected to the output of the fourth, former, the fourth input of the second The second counter is connected to the output of the second element, And one output of the second counter is connected to the other input of the first element, And another output of the second counter is connected to the input of the third driver, to one A3 inputs of the decoder and to the corresponding inputs of the third and fourth counters, the other two the inputs of the third counter are connected respectively to the outputs of the first and second elements I, the fourth input is connected to the first output of the fourth counter, which is connected to another input of the decoder, the second output of the fourth counter connection It is connected with another input of the first trigger, the second and third inputs of the fourth counter are connected to the outputs of the second and third elements, respectively, the fourth input of the fourth counter is connected to the output of the fourth driver, and the fifth input is connected to the output of the first element and register inputs, the corresponding inputs and outputs of which are connected to the outputs and inputs of the fourth counter, another register input is connected to the output of the second form of the body, the output of which is connected to the input of the fifth driver, output which is connected to one input of the OR element, the other input of which is connected to the output of the sixth formator, whose input is connected to the output of the fourth driver, the input of which is connected to the output of the second trigger, whose inputs are connected to the transport detectors, and the output of the second trigger is connected to one the input of the third element And, the other input of which and one of the inputs of the second element And are connected to the output of the pulse generator, the other input of the second element And is connected to the output of the third trigger, one input of which is connected to The output of the element OR another input of the third trigger and the second driver is connected to the first output of the fourth counter. The drawing shows a block diagram of the proposed device. The device contains detectors 1 and 2 of transport, the outputs of which are connected to the inputs of the trigger 3, the output connected to the input of the imaging unit 4 and one of the inputs of the element And 5, the other input of which is connected to the output. generator 6 pulses connected to one of the inputs of the element And 7, the output of which is connected to one of the inputs of counters 8, 9 and 10, the output of the latter is connected to the multiplication unit 11, the output connected to another input of the counter 8, the third input of which is connected to the output of the counter 12, the fourth input is associated with the output of the imaging unit 4, the first output is connected to one of the inputs of the AND element 13, and the second output is connected to the input of the imaging device 14, to one of the inputs of the decoder 15 and to the corresponding inputs of the counter 9 and the counter 10. The third input of the counter 9 with union of a yield of AND .5, a fourth input coupled to an output of 4, one of the counter output is connected to the other input of the decoder 15, the other output of the counter 9 is connected to the third input of the decoder 15, to the third input of the counter. 10, to one of the inputs of the imaging unit 16 and to one of the inputs of the trigger 17, the output of which is connected to another input of the I7 element, and the other input is connected to the output of the OR element 18, one input of which is connected to the output of the imaging device 19, the input connected to the output of the imaging device 4, the other input of the element OR 18 is connected to the output of the imaging unit 20, the input of which is connected to the output of the imaging device 16, also connected to one of the inputs of the register 21, the bit inputs and outputs of which are connected to the corresponding outputs and inputs of the counter 9, another output The day is connected to one of the inputs of the trigger 22, the output of which is connected to another input of the element I13, the output connected to the corresponding inputs of counters 9, 10 and the other input of the register 21. One of the outputs of the decoder 15 is connected to the display unit 23, and the other its input connected to one of the inputs of the results comparison unit 24, the reference speed meter (not shown) is connected to the other input, the output of the results comparison unit 24 is connected to the input of the counter 12. The output of the pulse former 14 is connected to another input f rmirovatel 16 and to the input of driver 25, whose output is cos union of the other input of flip-flop 22. The apparatus operates as follows. Before starting measurements, a device for measuring vehicle speed is calibrated from a reference speed meter, which can be used, for example, a photo sensor, a pedal sensor, etc. by comparing the result of a speed measurement using a reference meter supplied to one of the inputs of the comparison unit 24 results, and the result of measuring the speed using the proposed device, coming from the output of the decoder 15, with the minimum measured speed of vehicles, is 1 km / h. In this case, a certain number of pulses corresponding to the minimum vehicle speed is recorded in the counter 12 from the output of the comparison results block 24. If the speed measurement results obtained using a reference speed tester and using the proposed device match, the number recorded in counter 12 is not corrected. If these results do not match, the number of pulses recorded in counter 12 is corrected until the measurement results match. The number recorded in counter 12 with the coincidence of the results is rigidly fixed, and the reference speed meter is turned off. When a vehicle passes through a controlled zone of one of the transport detectors, for example 1, a pulse appears at the output of the latter, which arrives at the input of the setup 1 of the trigger 3, the output of which is signal 1 arriving at one of the inputs of the element I5, allowing Thus, the passage of high-frequency pulses from the pulse generator 6 to the summing input of the counter 9. When a vehicle passes through the controlled area of the transport detector 2 to its output, a signal sets the trigger 3 to the state O, at that the element I5 closes, stopping the flow of counting pulses from the pulse generator 6 to the summed counter input of the counter 9. The back edge of the pulse from the output of the trigger 3 starts the shaper 4, which generates a signal arriving at the corresponding input of the counter 9, through which the information recorded in this counter is transferred to the parallel register 21. This pulse arrives at the corresponding input of the counter 8, the information is entered stored in the counter 12, into the counter-8, the back edge of the pulse from the output of the former 4 starts the former 19, which generates a signal arriving at one of the inputs of the element OR 18, the output the signal of which is fed to the input of the setup 1 of the trigger 17, while the output of the latter is a signal 1, arriving at one of the inputs of element I7, allowing the passage of pulses from the pulse generator 6 to the subtractive inputs of counters 8 and 9, as well as to the counting input The counter 10. When all zero bits of the counter 9 appear at its output, a pulse arrives at the input of the decoder 15, at the input of the installation O of the trigger 17, at the input of the driver 16 and at the same time the reset counter 10i them pulse from the driver 14 output. At the output of the trigger 17, a signal O appears, prohibiting the passage of pulses from the pulse generator b through element I7 to the summing input of the counter 8. At the output of the former 16, a pulse arrives at the input of the register 21 and to the driver input 20. This pulse is used to rewrite the information stored in register 21 into the counter 9. The back of the pulse from the imaging unit 16 triggers the imaging unit 20, which by its output signal through the OR element 18 sets the trigger 17 into one state and the process of subtracting pulses starting from generator b through element I7 to the subtracting inputs of counters 8.9 begins. Each time a zero appears in the bits of the counter 9, a single pulse arrives at the decoder 15. When measuring the speed, the measurement result recorded in the decoder may differ from the true value by minus 1 km / h, in this case, when measuring high speeds, the error is very small, but when measuring low speeds, the error can be significant, for example, at speed, equal to 1 km / h, the error can be 50%. Therefore, in order to reduce the measurement error, the speed must be measured with an accuracy of 10 km / h. When measuring small speeds of movement from the output of counter 9, at a speed lower than the given one, for example 0 km / h, a pulse arrives at the input of the installation 1 of the trigger 22, at the inverse of the output of which a signal O appears. , the signal from the counter 9 to the input of the rigger 22 is not detected and a signal 1 is present at its output. When all counters of the counter are 8 zeros, the signal from the output of the latter arrives at the input of the I13 element, at the other input of which there is a resolving signal 1 s trigger 22. Output signal and 13 that resets the counter 9 and the register 21, thereby ending the measurement of the process. When measuring speeds below 10 km / 4,: a pulse from the output of counter 9 at the output of flip-flop 21 sets an O signal that prohibits the passage of a reset pulse through element I13, and from the output of counter 8 a pulse appears that transfers information recorded in counter 10 through block 11 multiplying into counter 8. In block 11 multiplying the numbers is multiplied by a certain factor depending on the specified {accuracy of the Measurement. For example, when measuring speed with an accuracy of tenths of km / h, the number recorded in the CH 10 count is multiplied by 10. On the trailing edge of the transfer pulse coming from the output of the counter 8, the driver 14 generates a pulse, which through the drivers 16, 20 and the element OR 18 sets a signal 1 at the output of the trigger 17, and the cycle repeats. The pulse from the output of the counter 9 on. the trigger input 22 arrives only once per measurement cycle when pulses are applied to the summing input of this counter. The output pulse of the driver 14 through the driver 25 sets the output 1 of the trigger 22 to a signal 1 after the occurrence of 8 zeros in all bits of the counter, the reset pulse passes through the element I13 and resets the counter 8, the register 21 and the counter 10. the pulse coming from the output of the counter 8 when In all its bits, the zeros to the input of the decoder 15 is a sign of the tenths. The first pulse arriving at the summing input of the counter 9 is reset by the decoder 15 and the display unit 23, ready to receive the new information. The proposed device makes it possible to measure the speed of movement of vehicles with an accuracy of tenths of km / h, which is especially important when measuring low speeds. The economic effect of using the proposed device is determined by its technical advantages indicated above. Apparatus of the Invention A device for measuring the speed of vehicles, comprising transport detectors, triggers, pulse generator, drivers, elements AND, one input of the first one connected to the output of the first trigger, the second input connected to the output of the first driver, the input of which is one of the inputs of the second the formate is connected with the output of the third former, the OR element and the indication block, characterized in that, in order to improve the accuracy of the change, a device for equalizing the results, counters, a multiplication unit, p Register and decoder, one stroke of the comparison block is connected to the device input, the second stroke is connected to the output of the decoder, which is connected to the display unit, and the output is connected to the input of the first counter, the output of which is connected to the first input of the second counter, the second input is connected to the output of the block multiplying, the third input of the second counter is connected to the output of the fourth driver, the fourth input of the second counter is connected to the output of the second element And, one output of the second counter is connected to another input of the first element And another output of the second counter is connected to the input of the third generator, to one of the inputs of the decoder and to the corresponding inputs of the third and fourth counters, two other inputs of the third counter are connected respectively to the outputs of the first and second elements And, the fourth input is connected to the first output of the fourth counter, which connected to another input of the decoder, the second output of the fourth meter is connected to another input of the first trigger, the second and third inputs of the fourth meter are connected to the outputs, respectively, in The first and third elements are And, the fourth input of the fourth counter is connected to the output of the fourth driver, and the fifth input is connected to the output of the first element and which is connected to one of the register inputs, the corresponding inputs and outputs of which are connected to the outputs and inputs of the fourth counter, another register input .. connected to the output of the second driver, the output of which is connected to the input of the fifth driver, the output of which is connected to one input of the OR element, the other input of which is connected to the output of the sixth driver, one of which is connected to the output of the fourth driver, whose input is connected to the output of the second trigger, whose inputs are connected to transport detectors, and the output of the second trigger is connected to one input of the third element And, the other input and one of the inputs of the second element And are connected to the generator output pulses the input of the second element And is connected to the output of the third trigger, one input of which is connected to the output of the element OR, and the other input of the third trigger and the second driver is connected to the first output of the fourth center etchik., Sources of information taken into account in the examination 1. US patent 3.492570, cl. 324-173, 01.27.70. / 2. US patent 3641569, cl. 340-38, 08.02..72 (prototype)